diff options
Diffstat (limited to 'rust/qemu-api/tests')
| -rw-r--r-- | rust/qemu-api/tests/tests.rs | 180 | ||||
| -rw-r--r-- | rust/qemu-api/tests/vmstate_tests.rs | 505 |
2 files changed, 0 insertions, 685 deletions
diff --git a/rust/qemu-api/tests/tests.rs b/rust/qemu-api/tests/tests.rs deleted file mode 100644 index a658a49..0000000 --- a/rust/qemu-api/tests/tests.rs +++ /dev/null @@ -1,180 +0,0 @@ -// Copyright 2024, Linaro Limited -// Author(s): Manos Pitsidianakis <manos.pitsidianakis@linaro.org> -// SPDX-License-Identifier: GPL-2.0-or-later - -use std::{ffi::CStr, ptr::addr_of}; - -use qemu_api::{ - bindings::{module_call_init, module_init_type, qdev_prop_bool}, - cell::{self, BqlCell}, - declare_properties, define_property, - prelude::*, - qdev::{DeviceImpl, DeviceState, Property, ResettablePhasesImpl}, - qom::{ObjectImpl, ParentField}, - sysbus::SysBusDevice, - vmstate::VMStateDescription, - zeroable::Zeroable, -}; - -mod vmstate_tests; - -// Test that macros can compile. -pub static VMSTATE: VMStateDescription = VMStateDescription { - name: c"name".as_ptr(), - unmigratable: true, - ..Zeroable::ZERO -}; - -#[repr(C)] -#[derive(qemu_api_macros::Object)] -pub struct DummyState { - parent: ParentField<DeviceState>, - migrate_clock: bool, -} - -qom_isa!(DummyState: Object, DeviceState); - -pub struct DummyClass { - parent_class: <DeviceState as ObjectType>::Class, -} - -impl DummyClass { - pub fn class_init<T: DeviceImpl>(self: &mut DummyClass) { - self.parent_class.class_init::<T>(); - } -} - -declare_properties! { - DUMMY_PROPERTIES, - define_property!( - c"migrate-clk", - DummyState, - migrate_clock, - unsafe { &qdev_prop_bool }, - bool - ), -} - -unsafe impl ObjectType for DummyState { - type Class = DummyClass; - const TYPE_NAME: &'static CStr = c"dummy"; -} - -impl ObjectImpl for DummyState { - type ParentType = DeviceState; - const ABSTRACT: bool = false; - const CLASS_INIT: fn(&mut DummyClass) = DummyClass::class_init::<Self>; -} - -impl ResettablePhasesImpl for DummyState {} - -impl DeviceImpl for DummyState { - fn properties() -> &'static [Property] { - &DUMMY_PROPERTIES - } - fn vmsd() -> Option<&'static VMStateDescription> { - Some(&VMSTATE) - } -} - -#[repr(C)] -#[derive(qemu_api_macros::Object)] -pub struct DummyChildState { - parent: ParentField<DummyState>, -} - -qom_isa!(DummyChildState: Object, DeviceState, DummyState); - -pub struct DummyChildClass { - parent_class: <DummyState as ObjectType>::Class, -} - -unsafe impl ObjectType for DummyChildState { - type Class = DummyChildClass; - const TYPE_NAME: &'static CStr = c"dummy_child"; -} - -impl ObjectImpl for DummyChildState { - type ParentType = DummyState; - const ABSTRACT: bool = false; - const CLASS_INIT: fn(&mut DummyChildClass) = DummyChildClass::class_init::<Self>; -} - -impl ResettablePhasesImpl for DummyChildState {} -impl DeviceImpl for DummyChildState {} - -impl DummyChildClass { - pub fn class_init<T: DeviceImpl>(self: &mut DummyChildClass) { - self.parent_class.class_init::<T>(); - } -} - -fn init_qom() { - static ONCE: BqlCell<bool> = BqlCell::new(false); - - cell::bql_start_test(); - if !ONCE.get() { - unsafe { - module_call_init(module_init_type::MODULE_INIT_QOM); - } - ONCE.set(true); - } -} - -#[test] -/// Create and immediately drop an instance. -fn test_object_new() { - init_qom(); - drop(DummyState::new()); - drop(DummyChildState::new()); -} - -#[test] -#[allow(clippy::redundant_clone)] -/// Create, clone and then drop an instance. -fn test_clone() { - init_qom(); - let p = DummyState::new(); - assert_eq!(p.clone().typename(), "dummy"); - drop(p); -} - -#[test] -/// Try invoking a method on an object. -fn test_typename() { - init_qom(); - let p = DummyState::new(); - assert_eq!(p.typename(), "dummy"); -} - -// a note on all "cast" tests: usually, especially for downcasts the desired -// class would be placed on the right, for example: -// -// let sbd_ref = p.dynamic_cast::<SysBusDevice>(); -// -// Here I am doing the opposite to check that the resulting type is correct. - -#[test] -#[allow(clippy::shadow_unrelated)] -/// Test casts on shared references. -fn test_cast() { - init_qom(); - let p = DummyState::new(); - let p_ptr: *mut DummyState = p.as_mut_ptr(); - let p_ref: &mut DummyState = unsafe { &mut *p_ptr }; - - let obj_ref: &Object = p_ref.upcast(); - assert_eq!(addr_of!(*obj_ref), p_ptr.cast()); - - let sbd_ref: Option<&SysBusDevice> = obj_ref.dynamic_cast(); - assert!(sbd_ref.is_none()); - - let dev_ref: Option<&DeviceState> = obj_ref.downcast(); - assert_eq!(addr_of!(*dev_ref.unwrap()), p_ptr.cast()); - - // SAFETY: the cast is wrong, but the value is only used for comparison - unsafe { - let sbd_ref: &SysBusDevice = obj_ref.unsafe_cast(); - assert_eq!(addr_of!(*sbd_ref), p_ptr.cast()); - } -} diff --git a/rust/qemu-api/tests/vmstate_tests.rs b/rust/qemu-api/tests/vmstate_tests.rs deleted file mode 100644 index ad0fc5c..0000000 --- a/rust/qemu-api/tests/vmstate_tests.rs +++ /dev/null @@ -1,505 +0,0 @@ -// Copyright (C) 2025 Intel Corporation. -// Author(s): Zhao Liu <zhai1.liu@intel.com> -// SPDX-License-Identifier: GPL-2.0-or-later - -use std::{ - ffi::{c_void, CStr}, - mem::size_of, - ptr::NonNull, - slice, -}; - -use qemu_api::{ - bindings::{ - vmstate_info_bool, vmstate_info_int32, vmstate_info_int64, vmstate_info_int8, - vmstate_info_uint64, vmstate_info_uint8, vmstate_info_unused_buffer, VMStateFlags, - }, - cell::{BqlCell, Opaque}, - impl_vmstate_forward, - vmstate::{VMStateDescription, VMStateField}, - vmstate_fields, vmstate_of, vmstate_struct, vmstate_unused, vmstate_validate, - zeroable::Zeroable, -}; - -const FOO_ARRAY_MAX: usize = 3; - -// =========================== Test VMSTATE_FOOA =========================== -// Test the use cases of the vmstate macro, corresponding to the following C -// macro variants: -// * VMSTATE_FOOA: -// - VMSTATE_U16 -// - VMSTATE_UNUSED -// - VMSTATE_VARRAY_UINT16_UNSAFE -// - VMSTATE_VARRAY_MULTIPLY -#[repr(C)] -#[derive(Default)] -struct FooA { - arr: [u8; FOO_ARRAY_MAX], - num: u16, - arr_mul: [i8; FOO_ARRAY_MAX], - num_mul: u32, - elem: i8, -} - -static VMSTATE_FOOA: VMStateDescription = VMStateDescription { - name: c"foo_a".as_ptr(), - version_id: 1, - minimum_version_id: 1, - fields: vmstate_fields! { - vmstate_of!(FooA, elem), - vmstate_unused!(size_of::<i64>()), - vmstate_of!(FooA, arr[0 .. num]).with_version_id(0), - vmstate_of!(FooA, arr_mul[0 .. num_mul * 16]), - }, - ..Zeroable::ZERO -}; - -#[test] -fn test_vmstate_uint16() { - let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOA.fields, 5) }; - - // 1st VMStateField ("elem") in VMSTATE_FOOA (corresponding to VMSTATE_UINT16) - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[0].name) }.to_bytes_with_nul(), - b"elem\0" - ); - assert_eq!(foo_fields[0].offset, 16); - assert_eq!(foo_fields[0].num_offset, 0); - assert_eq!(foo_fields[0].info, unsafe { &vmstate_info_int8 }); - assert_eq!(foo_fields[0].version_id, 0); - assert_eq!(foo_fields[0].size, 1); - assert_eq!(foo_fields[0].num, 0); - assert_eq!(foo_fields[0].flags, VMStateFlags::VMS_SINGLE); - assert!(foo_fields[0].vmsd.is_null()); - assert!(foo_fields[0].field_exists.is_none()); -} - -#[test] -fn test_vmstate_unused() { - let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOA.fields, 5) }; - - // 2nd VMStateField ("unused") in VMSTATE_FOOA (corresponding to VMSTATE_UNUSED) - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[1].name) }.to_bytes_with_nul(), - b"unused\0" - ); - assert_eq!(foo_fields[1].offset, 0); - assert_eq!(foo_fields[1].num_offset, 0); - assert_eq!(foo_fields[1].info, unsafe { &vmstate_info_unused_buffer }); - assert_eq!(foo_fields[1].version_id, 0); - assert_eq!(foo_fields[1].size, 8); - assert_eq!(foo_fields[1].num, 0); - assert_eq!(foo_fields[1].flags, VMStateFlags::VMS_BUFFER); - assert!(foo_fields[1].vmsd.is_null()); - assert!(foo_fields[1].field_exists.is_none()); -} - -#[test] -fn test_vmstate_varray_uint16_unsafe() { - let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOA.fields, 5) }; - - // 3rd VMStateField ("arr") in VMSTATE_FOOA (corresponding to - // VMSTATE_VARRAY_UINT16_UNSAFE) - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[2].name) }.to_bytes_with_nul(), - b"arr\0" - ); - assert_eq!(foo_fields[2].offset, 0); - assert_eq!(foo_fields[2].num_offset, 4); - assert_eq!(foo_fields[2].info, unsafe { &vmstate_info_uint8 }); - assert_eq!(foo_fields[2].version_id, 0); - assert_eq!(foo_fields[2].size, 1); - assert_eq!(foo_fields[2].num, 0); - assert_eq!(foo_fields[2].flags, VMStateFlags::VMS_VARRAY_UINT16); - assert!(foo_fields[2].vmsd.is_null()); - assert!(foo_fields[2].field_exists.is_none()); -} - -#[test] -fn test_vmstate_varray_multiply() { - let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOA.fields, 5) }; - - // 4th VMStateField ("arr_mul") in VMSTATE_FOOA (corresponding to - // VMSTATE_VARRAY_MULTIPLY) - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[3].name) }.to_bytes_with_nul(), - b"arr_mul\0" - ); - assert_eq!(foo_fields[3].offset, 6); - assert_eq!(foo_fields[3].num_offset, 12); - assert_eq!(foo_fields[3].info, unsafe { &vmstate_info_int8 }); - assert_eq!(foo_fields[3].version_id, 0); - assert_eq!(foo_fields[3].size, 1); - assert_eq!(foo_fields[3].num, 16); - assert_eq!( - foo_fields[3].flags.0, - VMStateFlags::VMS_VARRAY_UINT32.0 | VMStateFlags::VMS_MULTIPLY_ELEMENTS.0 - ); - assert!(foo_fields[3].vmsd.is_null()); - assert!(foo_fields[3].field_exists.is_none()); - - // The last VMStateField in VMSTATE_FOOA. - assert_eq!(foo_fields[4].flags, VMStateFlags::VMS_END); -} - -// =========================== Test VMSTATE_FOOB =========================== -// Test the use cases of the vmstate macro, corresponding to the following C -// macro variants: -// * VMSTATE_FOOB: -// - VMSTATE_BOOL_V -// - VMSTATE_U64 -// - VMSTATE_STRUCT_VARRAY_UINT8 -// - (no C version) MULTIPLY variant of VMSTATE_STRUCT_VARRAY_UINT32 -// - VMSTATE_ARRAY -// - VMSTATE_STRUCT_VARRAY_UINT8 with BqlCell wrapper & test_fn -#[repr(C)] -#[derive(Default)] -struct FooB { - arr_a: [FooA; FOO_ARRAY_MAX], - num_a: u8, - arr_a_mul: [FooA; FOO_ARRAY_MAX], - num_a_mul: u32, - wrap: BqlCell<u64>, - val: bool, - // FIXME: Use Timer array. Now we can't since it's hard to link savevm.c to test. - arr_i64: [i64; FOO_ARRAY_MAX], - arr_a_wrap: [FooA; FOO_ARRAY_MAX], - num_a_wrap: BqlCell<u32>, -} - -fn validate_foob(_state: &FooB, _version_id: u8) -> bool { - true -} - -static VMSTATE_FOOB: VMStateDescription = VMStateDescription { - name: c"foo_b".as_ptr(), - version_id: 2, - minimum_version_id: 1, - fields: vmstate_fields! { - vmstate_of!(FooB, val).with_version_id(2), - vmstate_of!(FooB, wrap), - vmstate_struct!(FooB, arr_a[0 .. num_a], &VMSTATE_FOOA, FooA).with_version_id(1), - vmstate_struct!(FooB, arr_a_mul[0 .. num_a_mul * 32], &VMSTATE_FOOA, FooA).with_version_id(2), - vmstate_of!(FooB, arr_i64), - vmstate_struct!(FooB, arr_a_wrap[0 .. num_a_wrap], &VMSTATE_FOOA, FooA, validate_foob), - }, - ..Zeroable::ZERO -}; - -#[test] -fn test_vmstate_bool_v() { - let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOB.fields, 7) }; - - // 1st VMStateField ("val") in VMSTATE_FOOB (corresponding to VMSTATE_BOOL_V) - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[0].name) }.to_bytes_with_nul(), - b"val\0" - ); - assert_eq!(foo_fields[0].offset, 136); - assert_eq!(foo_fields[0].num_offset, 0); - assert_eq!(foo_fields[0].info, unsafe { &vmstate_info_bool }); - assert_eq!(foo_fields[0].version_id, 2); - assert_eq!(foo_fields[0].size, 1); - assert_eq!(foo_fields[0].num, 0); - assert_eq!(foo_fields[0].flags, VMStateFlags::VMS_SINGLE); - assert!(foo_fields[0].vmsd.is_null()); - assert!(foo_fields[0].field_exists.is_none()); -} - -#[test] -fn test_vmstate_uint64() { - let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOB.fields, 7) }; - - // 2nd VMStateField ("wrap") in VMSTATE_FOOB (corresponding to VMSTATE_U64) - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[1].name) }.to_bytes_with_nul(), - b"wrap\0" - ); - assert_eq!(foo_fields[1].offset, 128); - assert_eq!(foo_fields[1].num_offset, 0); - assert_eq!(foo_fields[1].info, unsafe { &vmstate_info_uint64 }); - assert_eq!(foo_fields[1].version_id, 0); - assert_eq!(foo_fields[1].size, 8); - assert_eq!(foo_fields[1].num, 0); - assert_eq!(foo_fields[1].flags, VMStateFlags::VMS_SINGLE); - assert!(foo_fields[1].vmsd.is_null()); - assert!(foo_fields[1].field_exists.is_none()); -} - -#[test] -fn test_vmstate_struct_varray_uint8() { - let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOB.fields, 7) }; - - // 3rd VMStateField ("arr_a") in VMSTATE_FOOB (corresponding to - // VMSTATE_STRUCT_VARRAY_UINT8) - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[2].name) }.to_bytes_with_nul(), - b"arr_a\0" - ); - assert_eq!(foo_fields[2].offset, 0); - assert_eq!(foo_fields[2].num_offset, 60); - assert!(foo_fields[2].info.is_null()); // VMSTATE_STRUCT_VARRAY_UINT8 doesn't set info field. - assert_eq!(foo_fields[2].version_id, 1); - assert_eq!(foo_fields[2].size, 20); - assert_eq!(foo_fields[2].num, 0); - assert_eq!( - foo_fields[2].flags.0, - VMStateFlags::VMS_STRUCT.0 | VMStateFlags::VMS_VARRAY_UINT8.0 - ); - assert_eq!(foo_fields[2].vmsd, &VMSTATE_FOOA); - assert!(foo_fields[2].field_exists.is_none()); -} - -#[test] -fn test_vmstate_struct_varray_uint32_multiply() { - let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOB.fields, 7) }; - - // 4th VMStateField ("arr_a_mul") in VMSTATE_FOOB (corresponding to - // (no C version) MULTIPLY variant of VMSTATE_STRUCT_VARRAY_UINT32) - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[3].name) }.to_bytes_with_nul(), - b"arr_a_mul\0" - ); - assert_eq!(foo_fields[3].offset, 64); - assert_eq!(foo_fields[3].num_offset, 124); - assert!(foo_fields[3].info.is_null()); // VMSTATE_STRUCT_VARRAY_UINT8 doesn't set info field. - assert_eq!(foo_fields[3].version_id, 2); - assert_eq!(foo_fields[3].size, 20); - assert_eq!(foo_fields[3].num, 32); - assert_eq!( - foo_fields[3].flags.0, - VMStateFlags::VMS_STRUCT.0 - | VMStateFlags::VMS_VARRAY_UINT32.0 - | VMStateFlags::VMS_MULTIPLY_ELEMENTS.0 - ); - assert_eq!(foo_fields[3].vmsd, &VMSTATE_FOOA); - assert!(foo_fields[3].field_exists.is_none()); -} - -#[test] -fn test_vmstate_macro_array() { - let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOB.fields, 7) }; - - // 5th VMStateField ("arr_i64") in VMSTATE_FOOB (corresponding to - // VMSTATE_ARRAY) - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[4].name) }.to_bytes_with_nul(), - b"arr_i64\0" - ); - assert_eq!(foo_fields[4].offset, 144); - assert_eq!(foo_fields[4].num_offset, 0); - assert_eq!(foo_fields[4].info, unsafe { &vmstate_info_int64 }); - assert_eq!(foo_fields[4].version_id, 0); - assert_eq!(foo_fields[4].size, 8); - assert_eq!(foo_fields[4].num, FOO_ARRAY_MAX as i32); - assert_eq!(foo_fields[4].flags, VMStateFlags::VMS_ARRAY); - assert!(foo_fields[4].vmsd.is_null()); - assert!(foo_fields[4].field_exists.is_none()); -} - -#[test] -fn test_vmstate_struct_varray_uint8_wrapper() { - let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOB.fields, 7) }; - let mut foo_b: FooB = Default::default(); - let foo_b_p = std::ptr::addr_of_mut!(foo_b).cast::<c_void>(); - - // 6th VMStateField ("arr_a_wrap") in VMSTATE_FOOB (corresponding to - // VMSTATE_STRUCT_VARRAY_UINT8). Other fields are checked in - // test_vmstate_struct_varray_uint8. - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[5].name) }.to_bytes_with_nul(), - b"arr_a_wrap\0" - ); - assert_eq!(foo_fields[5].num_offset, 228); - assert!(unsafe { foo_fields[5].field_exists.unwrap()(foo_b_p, 0) }); - - // The last VMStateField in VMSTATE_FOOB. - assert_eq!(foo_fields[6].flags, VMStateFlags::VMS_END); -} - -// =========================== Test VMSTATE_FOOC =========================== -// Test the use cases of the vmstate macro, corresponding to the following C -// macro variants: -// * VMSTATE_FOOC: -// - VMSTATE_POINTER -// - VMSTATE_ARRAY_OF_POINTER -struct FooCWrapper([Opaque<*mut u8>; FOO_ARRAY_MAX]); // Though Opaque<> array is almost impossible. - -impl_vmstate_forward!(FooCWrapper); - -#[repr(C)] -struct FooC { - ptr: *const i32, - ptr_a: NonNull<FooA>, - arr_ptr: [Box<u8>; FOO_ARRAY_MAX], - arr_ptr_wrap: FooCWrapper, -} - -static VMSTATE_FOOC: VMStateDescription = VMStateDescription { - name: c"foo_c".as_ptr(), - version_id: 3, - minimum_version_id: 1, - fields: vmstate_fields! { - vmstate_of!(FooC, ptr).with_version_id(2), - // FIXME: Currently vmstate_struct doesn't support the pointer to structure. - // VMSTATE_STRUCT_POINTER: vmstate_struct!(FooC, ptr_a, VMSTATE_FOOA, NonNull<FooA>) - vmstate_unused!(size_of::<NonNull<FooA>>()), - vmstate_of!(FooC, arr_ptr), - vmstate_of!(FooC, arr_ptr_wrap), - }, - ..Zeroable::ZERO -}; - -const PTR_SIZE: usize = size_of::<*mut ()>(); - -#[test] -fn test_vmstate_pointer() { - let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOC.fields, 6) }; - - // 1st VMStateField ("ptr") in VMSTATE_FOOC (corresponding to VMSTATE_POINTER) - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[0].name) }.to_bytes_with_nul(), - b"ptr\0" - ); - assert_eq!(foo_fields[0].offset, 0); - assert_eq!(foo_fields[0].num_offset, 0); - assert_eq!(foo_fields[0].info, unsafe { &vmstate_info_int32 }); - assert_eq!(foo_fields[0].version_id, 2); - assert_eq!(foo_fields[0].size, 4); - assert_eq!(foo_fields[0].num, 0); - assert_eq!( - foo_fields[0].flags.0, - VMStateFlags::VMS_SINGLE.0 | VMStateFlags::VMS_POINTER.0 - ); - assert!(foo_fields[0].vmsd.is_null()); - assert!(foo_fields[0].field_exists.is_none()); -} - -#[test] -fn test_vmstate_macro_array_of_pointer() { - let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOC.fields, 6) }; - - // 3rd VMStateField ("arr_ptr") in VMSTATE_FOOC (corresponding to - // VMSTATE_ARRAY_OF_POINTER) - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[2].name) }.to_bytes_with_nul(), - b"arr_ptr\0" - ); - assert_eq!(foo_fields[2].offset, 2 * PTR_SIZE); - assert_eq!(foo_fields[2].num_offset, 0); - assert_eq!(foo_fields[2].info, unsafe { &vmstate_info_uint8 }); - assert_eq!(foo_fields[2].version_id, 0); - assert_eq!(foo_fields[2].size, PTR_SIZE); - assert_eq!(foo_fields[2].num, FOO_ARRAY_MAX as i32); - assert_eq!( - foo_fields[2].flags.0, - VMStateFlags::VMS_ARRAY.0 | VMStateFlags::VMS_ARRAY_OF_POINTER.0 - ); - assert!(foo_fields[2].vmsd.is_null()); - assert!(foo_fields[2].field_exists.is_none()); -} - -#[test] -fn test_vmstate_macro_array_of_pointer_wrapped() { - let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOC.fields, 6) }; - - // 4th VMStateField ("arr_ptr_wrap") in VMSTATE_FOOC (corresponding to - // VMSTATE_ARRAY_OF_POINTER) - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[3].name) }.to_bytes_with_nul(), - b"arr_ptr_wrap\0" - ); - assert_eq!(foo_fields[3].offset, (FOO_ARRAY_MAX + 2) * PTR_SIZE); - assert_eq!(foo_fields[3].num_offset, 0); - assert_eq!(foo_fields[3].info, unsafe { &vmstate_info_uint8 }); - assert_eq!(foo_fields[3].version_id, 0); - assert_eq!(foo_fields[3].size, PTR_SIZE); - assert_eq!(foo_fields[3].num, FOO_ARRAY_MAX as i32); - assert_eq!( - foo_fields[3].flags.0, - VMStateFlags::VMS_ARRAY.0 | VMStateFlags::VMS_ARRAY_OF_POINTER.0 - ); - assert!(foo_fields[3].vmsd.is_null()); - assert!(foo_fields[3].field_exists.is_none()); - - // The last VMStateField in VMSTATE_FOOC. - assert_eq!(foo_fields[4].flags, VMStateFlags::VMS_END); -} - -// =========================== Test VMSTATE_FOOD =========================== -// Test the use cases of the vmstate macro, corresponding to the following C -// macro variants: -// * VMSTATE_FOOD: -// - VMSTATE_VALIDATE - -// Add more member fields when vmstate_of/vmstate_struct support "test" -// parameter. -struct FooD; - -impl FooD { - fn validate_food_0(&self, _version_id: u8) -> bool { - true - } - - fn validate_food_1(_state: &FooD, _version_id: u8) -> bool { - false - } -} - -fn validate_food_2(_state: &FooD, _version_id: u8) -> bool { - true -} - -static VMSTATE_FOOD: VMStateDescription = VMStateDescription { - name: c"foo_d".as_ptr(), - version_id: 3, - minimum_version_id: 1, - fields: vmstate_fields! { - vmstate_validate!(FooD, c"foo_d_0", FooD::validate_food_0), - vmstate_validate!(FooD, c"foo_d_1", FooD::validate_food_1), - vmstate_validate!(FooD, c"foo_d_2", validate_food_2), - }, - ..Zeroable::ZERO -}; - -#[test] -fn test_vmstate_validate() { - let foo_fields: &[VMStateField] = unsafe { slice::from_raw_parts(VMSTATE_FOOD.fields, 4) }; - let mut foo_d = FooD; - let foo_d_p = std::ptr::addr_of_mut!(foo_d).cast::<c_void>(); - - // 1st VMStateField in VMSTATE_FOOD - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[0].name) }.to_bytes_with_nul(), - b"foo_d_0\0" - ); - assert_eq!(foo_fields[0].offset, 0); - assert_eq!(foo_fields[0].num_offset, 0); - assert!(foo_fields[0].info.is_null()); - assert_eq!(foo_fields[0].version_id, 0); - assert_eq!(foo_fields[0].size, 0); - assert_eq!(foo_fields[0].num, 0); - assert_eq!( - foo_fields[0].flags.0, - VMStateFlags::VMS_ARRAY.0 | VMStateFlags::VMS_MUST_EXIST.0 - ); - assert!(foo_fields[0].vmsd.is_null()); - assert!(unsafe { foo_fields[0].field_exists.unwrap()(foo_d_p, 0) }); - - // 2nd VMStateField in VMSTATE_FOOD - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[1].name) }.to_bytes_with_nul(), - b"foo_d_1\0" - ); - assert!(!unsafe { foo_fields[1].field_exists.unwrap()(foo_d_p, 1) }); - - // 3rd VMStateField in VMSTATE_FOOD - assert_eq!( - unsafe { CStr::from_ptr(foo_fields[2].name) }.to_bytes_with_nul(), - b"foo_d_2\0" - ); - assert!(unsafe { foo_fields[2].field_exists.unwrap()(foo_d_p, 2) }); - - // The last VMStateField in VMSTATE_FOOD. - assert_eq!(foo_fields[3].flags, VMStateFlags::VMS_END); -} |